Determine the magnitude of the force F and the angle θ, knowing that the moments of F about the x and y axes are, respectively, Mx = −250 lb·in and My = −100 lb·in.
We need at least 9 more requests to produce the answer.
1 / 10 have requested this problem solution
The more requests, the faster the answer.
3. Determine the magnitude of the moments of the force F about the x. y, and z axes. appre the problem (a) using a Cartesian vector approach and (b) using a scalar s ft 3 ft F (20i+ 80j-60k) lb
Determine the magnitude of the moments of the force F about the x, y, and z axes. (a) (b) Solve the problem using a Cartesian vector approach. Solve the problem using a scalar approach. 4ft 3 ft 2 ft
1. Determine the magnitude of2. Determine moments at the Mx, My, and M, at the origin | O, in terms of force components Fx, Fy, and Fz, and distances xA, V4, and zA elbow (point B) and shoulder (point A) due to the vertical load F. A (x,y,z) F.k
Determine the magnitude of the moments of the force F about the
x, y, and z axes.
a. Solve the problem using a Cartesian vector approach. Express
your answer in terms of the unit vectors i, j, and k.
b. Solve the problem using a scalar approach. Express your
answers using three significant figures separated by commas.
4 ft 3 ft 2 ft
A force F⃗ of magnitude F making an angle θ with the x axis is
applied to a particle located along axis of rotation A, at
Cartesian coordinates (0,0) in the figure. The vector F⃗ lies in
the xy plane, and the four axes of rotation A, B, C, and D all lie
perpendicular to the xy plane.
A particle is located at a vector position r⃗ r→r_vec with
respect to an axis of rotation (thus r⃗ r→r_vec points from...
2.87
Problems55 the magnitsde and direction of the force F 2.81 A force acts at the origin of a coordinate system in a direction l by the angles 869.3 and e 57.9. Knowing that the y compo- nent of the force is -174.0 lb, determine (a) the angle ,, (b) the o components and the magnitude of the foree. 2.82 A force acts at the origin of a coordinate system in a direction defined by the angles &-70.9 and &-144.9....
A 540-N force F acts at the end of a cable-supported bar as shown. a. Use the cross product to determine the moment the 540-N force creates at a moment center at A (M_A). Write the moment in vector notation based on the xyz coordinate axes. b. Using the x*y*z* coordinate axes and the cross product, determine M_A*. Write in vector notation. c. Confirm that the moments found in a and b have the same magnitude. Determine the magnitudes of...
Three charges are placed in the x-y plane as shown. What is
the net force (magnitude and direction) acting on the +8 mC
charge?
3.) Three charges are placed in the x-y plane as shown. What is the net force (magnitude and direction) acting on the +8 uC charge? (a) 1.62 N, θ-42.7" (b) 7.25 N,0=-42.7" (c) 2.25 N, 0--58.3° (d) 3.62 N, θ 58.70 0.5 m 250 +8pC 250
1.) Vectors Can the x or y component of a vector ever have a greater magnitude than the vector itself has? Yes. The x component can, but the y component cannot. Yes, but only when the x and y components have equal magnitudes. Yes. Both components can. Yes. The y component can, but the x component cannot. No. Neither component can. 2.) A force vector has a magnitude of 370 newtons (N) and points at an angle of 53.0° below...
What is the magnitude of the force F⃗ on the −10 nC
charge?F=? NWhat is the direction of the force F⃗ on the −10 nC
charge? (angle from the +x-axis)θ =? ∘